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Framework of Real-Time Optical Nyquist-WDM Receiver using Matlab & Simulink
Crifasi, Adam Vincenzo
Crifasi, Adam Vincenzo
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Abstract
I investigate an optical Nyquist-WDM Bit Error Rate (BER) detection system. A transmitter and receiver system is simulated, using Matlab and Simulink, to form a working algorithm and to study the effects of the different processes of the data chain. The inherent lack of phase information in the N-WDM scheme presents unique challenges and requires a precise phase recovery system to accurately decode a message. Furthermore, resource constraints are applied by a cost-effective Field Programmable Gate Array (FPGA). To compensate for the speed, gate, and memory constraints of a budget FPGA, several techniques are employed to design the best possible receiver. I study the resource intensive operations and vary their resource utilization to discover the effect on the BER. To conclude, a full VHDL design is delineated, including peripheral initialization, input data sorting and storage, timing synchronization, state machine and control signal implementation, N-WDM demodulation, phase recovery, QAM decoding, and BER calculation.
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Date
2013-08-31
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University of Kansas
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Keywords
Electrical engineering, Digital subcarrier multiplexing, Fiber optic communications, Nyquist-wdm